Glucagon-like peptide-1 (GLP-1) receptor agonists are a relatively new treatment option for obesity and type 2 diabetes. Treatment has been shown to result in in weight loss and improved glycemic... Show moreGlucagon-like peptide-1 (GLP-1) receptor agonists are a relatively new treatment option for obesity and type 2 diabetes. Treatment has been shown to result in in weight loss and improved glycemic control. In this thesis, the effects of treatment on the different adipose tissue depots and on cardiac function are described. In a randomised controlled trial, we treated patients with type 2 diabetes from South Asian descent, a population with increased risk to develop type 2 diabetes and cardiovascular disease compared to Western Europeans, with liraglutide, a GLP-1 receptor agonist, or placebo, and studied these subjects with MRI. We concluded that liraglutide and possibly other GLP-1 receptor agonists can be a good strategy to reduce the volume of visceral adipose tissue. This reduction was accompanied by a significant improvement of glycemic control. Lastly, we provided evidence that liraglutide does not improve cardiac function and myocardial tissue characteristics and thus does not improve diabetic cardiomyopathy. In addition, in another study, we studied the mechanism behind GLP-1 receptor agonism induced weight loss and concluded that liraglutide induces weight loss in humans by decreasing energy intake rather than by activating brown adipose tissue or increasing energy expenditure. Show less
Our increasing obesogenic and aging society has resulted in a steeply increasing prevalence of cardiometabolic diseases. The main underlying reason is our modern lifestyle with respect to higher... Show moreOur increasing obesogenic and aging society has resulted in a steeply increasing prevalence of cardiometabolic diseases. The main underlying reason is our modern lifestyle with respect to higher availability and intake of food, which often appears unhealthy, and lower energy expenditure related to a sedentary lifestyle. Although the most efficient ways to slow this high prevalence of obesity are just eating less and more healthy, and moving more, to reduce energy intake and increase energy expenditure, respectively, current strategies to achieve this in the long-term are still both insufficient and ineffective, and novel strategies are still eagerly warranted.This thesis emphasizes dietary butyrate as a promising and feasible therapeutic strategy to combat obesity and related cardiometabolic diseases with respect to not only reducing appetite but also activating brown adipose tissue. In a series of subsequent mechanistic studies, we elucidated the mechanisms underlying these metabolic properties systematically from gut to the brain, showing the involvement of gut microbiota, intestinal GLP-1 secretion, vagal nerve activation, and finally central GLP-1 receptor signaling to inhibit NPY neuronal activation. The findings of this thesis provide valuable information on the development of novel therapeutic strategies for combating obesity and associated cardiometabolic diseases. Show less
Type 2 diabetes en hart- en vaatziekten (‘cardiometabole ziekten’) leiden wereldwijd tot veel sterfte. Vergeleken met mensen van West-Europese afkomst hebben Zuid-Aziaten een verhoogd risico op... Show moreType 2 diabetes en hart- en vaatziekten (‘cardiometabole ziekten’) leiden wereldwijd tot veel sterfte. Vergeleken met mensen van West-Europese afkomst hebben Zuid-Aziaten een verhoogd risico op deze ziekten. Dit komt gedeeltelijk door hun ongunstige lichaamssamenstelling met veel buikvet en vetopslag in organen zoals spieren en lever, wat hun werking verstoort. Het verminderen van overgewicht verlaagt het risico op type 2 diabetes en hart- en vaatziekten. Verminderen van voedselinname en verhogen van het energieverbruik kan hieraan bijdragen. Een veelbelovende aanpak om het energieverbruik te verhogen, is het stimuleren van vet- en suikerverbranding door lichaamseigen bruin vetweefsel. In dit proefschrift onderzochten wij eerst mechanismen die bijdragen aan cardiometabole ziekten in Zuid-Aziaten. Wij observeerden verminderde Wnt signaaltransductie in wit vet van Zuid-Aziaten, wat samenhing met minder insulinegevoeligheid in dit weefsel. Ook vonden wij een andere samenstelling van LDL-deeltjes in Zuid-Aziaten, wat samenhing met een verhoogde neiging van deze deeltjes om samen te klonteren. Daarna onderzochten wij de effectiviteit van geneesmiddelen om bruin vet activiteit te verhogen en de cardiometabole gezondheid te verbeteren. Wij lieten zien dat stimuleren van de beta-adrenerge receptor de stofwisseling verhoogt en vetverbranding door bruin vet stimuleert, echter niet méer dan koudeblootstelling. Ook vonden wij dat GLP-1 receptoragonisme de suikeropname door bruin vet stimuleert, wat mogelijk bijdraagt aan een gunstig effect op het lichaamsgewicht en suiker- en vetstofwisseling. Deze studies hebben bijgedragen aan kennis over risicofactoren voor cardiometabole ziekten en de ontwikkeling van nieuwe therapeutische strategieën om deze ziekten tegen te gaan, vooral in Zuid-Aziaten. Show less
Aims/hypothesis Circulating succinate and 12,13-dihydroxy-9Z-octadecenoic acid (12,13-diHOME) were recently shown to promote brown adipocyte thermogenesis and protect against metabolic disorders in... Show moreAims/hypothesis Circulating succinate and 12,13-dihydroxy-9Z-octadecenoic acid (12,13-diHOME) were recently shown to promote brown adipocyte thermogenesis and protect against metabolic disorders in rodents. This study aimed to evaluate the associations between plasma levels of these metabolites and adiposity and metabolic profile in humans. Methods Fasting plasma succinate and 12,13-diHOME levels were quantified using ultra HPLC-tandem MS in 2248 individuals (50% female, mean age 41.3 +/- 5.9 years, mean BMI 26.1 +/- 4.6 kg/m(2)) in addition to fasting plasma biochemistry. Total and regional adiposity were assessed with dual-energy x-ray absorptiometry. An age- and sex-adjusted linear regression model was used to determine the associations between succinate and 12,13-diHOME levels and body composition and metabolic profile. Two-sample Mendelian randomisation was used to assess the associations between genetically determined BMI and metabolic traits with circulating plasma succinate and 12,13-diHOME. Results A one-SD higher plasma succinate and 12,13-diHOME concentration was associated with a 0.15 SD (95% CI 0.28, 0.03) and 0.08 SD (0.15, 0.01) lower total fat mass respectively. Additionally, a one-SD higher plasma 12,13-diHOME level was associated with a 0.09 SD (0.16, 0.02) lower fasting plasma insulin and 0.10 SD (0.17, 0.04) lower plasma triacylglycerol. In Mendelian randomisation analyses, genetically determined higher BMI, fasting hyperinsulinaemia and elevated lipid levels were not associated with changes in either plasma succinate or plasma 12,13-diHOME concentrations. No indications of bias due to directional pleiotropy were detected in the Mendelian randomisation analyses. Conclusions/interpretation Our findings tentatively suggest that plasma succinate and 12,13-diHOME may play a role in the regulation of energy metabolism and brown adipose tissue activation in humans. Further studies encompassing direct assessment of brown adipose tissue activity and dietary supplementation are necessary to investigate the potential beneficial effects of these metabolites on systemic metabolism. Show less
Rozendaal, Y.J.W.; Wang, Y.N.; Hilbers, P.A.J.; Riel, N.A.W. van 2019
BackgroundA positive energy balance is considered to be the primary cause of the development of obesity-related diseases. Treatment often consists of a combination of reducing energy intake and... Show moreBackgroundA positive energy balance is considered to be the primary cause of the development of obesity-related diseases. Treatment often consists of a combination of reducing energy intake and increasing energy expenditure. Here we use an existing computational modelling framework describing the long-term development of Metabolic Syndrome (MetS) in APOE3L.CETP mice fed a high-fat diet containing cholesterol with a human-like metabolic system. This model was used to analyze energy expenditure and energy balance in a large set of individual model realizations.ResultsWe developed and applied a strategy to select specific individual models for a detailed analysis of heterogeneity in energy metabolism. Models were stratified based on energy expenditure. A substantial surplus of energy was found to be present during MetS development, which explains the weight gain during MetS development. In the majority of the models, energy was mainly expended in the peripheral tissues, but also distinctly different subgroups were identified.In silico perturbation of the system to induce increased peripheral energy expenditure implied changes in lipid metabolism, but not in carbohydrate metabolism. In silico analysis provided predictions for which individual models increase of peripheral energy expenditure would be an effective treatment.ConclusionThe computational analysis confirmed that the energy imbalance plays an important role in the development of obesity. Furthermore, the model is capable to predict whether an increase in peripheral energy expenditure - for instance by cold exposure to activate brown adipose tissue (BAT) - could resolve MetS symptoms. Show less
In 1551, the Swiss naturalist Konrad Gessner first described brown adipose tissue (BAT) as being __neither fat, nor flesh (nec pinguitudo, nec caro), but something in between__. Now, some 460 years... Show moreIn 1551, the Swiss naturalist Konrad Gessner first described brown adipose tissue (BAT) as being __neither fat, nor flesh (nec pinguitudo, nec caro), but something in between__. Now, some 460 years later, we know that Gessner had guessed the origin of brown adipocytes correctly. A unique property of the brown adipocyte is its capacity to dissipate energy stored in triglycerides (TG) as heat, which is mediated via the uncoupling protein UCP1. The recent discovery that active BAT is present in human adults meant the beginning of an exciting new area in metabolic research. BAT is currently regarded as a potential target to combat obesity and related diseases by inducing a sustained increase in energy expenditure. Interestingly, South Asians have lower energy expenditure, which may thus theoretically be caused by a reduction in BAT activity. The studies of which the results are described in this thesis were aimed at 1) gaining more insight into the physiology of BAT, 2) identifying novel tools and targets that may activate BAT, and 3) investigating the involvement of BAT in metabolism in humans with a focus on potential differences between South Asians and white Caucasians. Show less
Boon, M.R.; Horst, G. van der; Pluijm, G. van der; Tamsma, J.T.; Smit, J.W.A.; Rensen, P.C.N. 2011
